Knit Casting_functionally graded knits for volumetric concrete casting
       
     
4 typologies.jpg
       
     
2020_12_09_Large_Frame_Exploded_CYMK.png
       
     
2020-01-22 14.21.17.jpg
       
     
2020-01-22 14.11.15.jpg
       
     
2020-01-22 14.52.37.jpg
       
     
201012_acadia20_e_CYMK.jpg
       
     
fill_still_1.jpg
       
     
fill_still_2.jpg
       
     
IMG_9687.jpg
       
     
IMG_9701.jpg
       
     
IMG_9703 2.jpg
       
     
IMG_9776.jpg
       
     
IMG_9803.jpg
       
     
IMG_9849_CYMK.jpg
       
     
IMG_9860.jpg
       
     
IMG_9866.jpg
       
     
IMG_9868.jpg
       
     
IMG_9871.jpg
       
     
IMG_9894.jpg
       
     
IMG_9906.jpg
       
     
IMG_9912_CMYK.jpg
       
     
IMG_9935 2_CYMK.jpg
       
     
IMG_9943_CYMK.jpg
       
     
IMG_9946.jpg
       
     
IMG_9955_low.jpg
       
     
IMG_9959_CMYK.jpg
       
     
IMG_9963.jpg
       
     
Ng_10_2.jpg
       
     
Ng_12.jpg
       
     
Ng_13.jpg
       
     
Knit Casting_functionally graded knits for volumetric concrete casting
       
     
Knit Casting_functionally graded knits for volumetric concrete casting

in collaboration with Sean Alhquist and Evgueni T. Filipov

2020-present

Knit Casting explores the use of bespoke Computer Numeric Controlled (CNC) manufactured knits to produce volumetric textile formwork for casting glass fiber reinforced concrete (GFRC). As a collaboration between experts in architecture, textile fabrication, and civil engineering, the research investigates multi-material, functionally-graded knit formwork as a fully seamless system to cast concrete. Working with controlled characteristics such as elasticity and stiffness of yarn type and knit structure, the soft textile is conceived as the vessel that defines the performative characteristics of volume, geometry, and surface detail. With only a minimal frame to suspend the volumetric cast, hydro-static pressure “inflates” the fabric formwork creating a dynamic form-finding process that eliminates the need for typical molding materials such as wood or foam. The precast units using this process reduce the amount of construction waste for formwork production, propose a more automated fashion for manufacturing the formwork, and produce casts with complex geometries difficult to accomplish with traditional casting methods. The present research is comprised of design and manufacturing of customized CNC knitted formwork, working with limitations and parameters inherent to industrial knitting processes as well as concrete casting techniques which required rheological calibration. There are four different typologies developed: the diagrid, drupelet, apertures, and 3D funnel shell.

Technical Knitting

Tracey Weisman

Research Assistants

Mackenzie Bruce, Gabrielle Clune, Jeffrey Richmond

Knit Casting is generously supported through the Prototyping Tomorrow Grant Initiative from Taubman College of Architecture and Urban Planning, University of Michigan, as well as a Small Project Grant from the University of Michigan Office of Research (UMOR).

4 typologies.jpg
       
     
2020_12_09_Large_Frame_Exploded_CYMK.png
       
     
2020-01-22 14.21.17.jpg
       
     
2020-01-22 14.11.15.jpg
       
     
2020-01-22 14.52.37.jpg
       
     
201012_acadia20_e_CYMK.jpg
       
     
fill_still_1.jpg
       
     
fill_still_2.jpg
       
     
IMG_9687.jpg
       
     
IMG_9701.jpg
       
     
IMG_9703 2.jpg
       
     
IMG_9776.jpg
       
     
IMG_9803.jpg
       
     
IMG_9849_CYMK.jpg
       
     
IMG_9860.jpg
       
     
IMG_9866.jpg
       
     
IMG_9868.jpg
       
     
IMG_9871.jpg
       
     
IMG_9894.jpg
       
     
IMG_9906.jpg
       
     
IMG_9912_CMYK.jpg
       
     
IMG_9935 2_CYMK.jpg
       
     
IMG_9943_CYMK.jpg
       
     
IMG_9946.jpg
       
     
IMG_9955_low.jpg
       
     
IMG_9959_CMYK.jpg
       
     
IMG_9963.jpg
       
     
Ng_10_2.jpg
       
     
Ng_12.jpg
       
     
Ng_13.jpg